Title
Flocking motion of multi-agent systems: A proximity digraph case
11627/655611627/6556
Author
Barajas Ramírez, Juan Gonzalo
Ávila Martínez, Eber Jafet
Abstract
We investigate the coordinated motion of a multi-agent system with heterogeneous distance-dependent communication constraints. In this setup, the underlying interaction network is dynamic since edges appear or disappear as the agents navigate their workspace. Inspired by the gradient-descent method, we provide a distributed controller which preserves the position-dependent communication network connectivity properties. We use a distributed connectivity measure based on the entries of the first-left eigenvector of the network's associated Laplacian matrix to provide the agents with local knowledge of the overall network topology and reveal its dynamics properties. We illustrate our result with a numerical simulation.
Publication date
2023Publication type
articleDOI
https://doi.org/10.1016/j.ifacol.2023.10.904Knowledge area
SISTEMAS DE CONTROLPublisher
International Federation of Automatic Control.Keywords
Multi-agent systemsDistributed control and estimation
Flocking motion
State-dependent digraphs